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ENH: Updated compressible omega wall functions to include averaging and to handle ACMI patches

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This commit is contained in:
andy
2013-05-31 16:03:48 +01:00
parent cf3aa038b7
commit 8c36e2e691
2 changed files with 493 additions and 68 deletions
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476
src/turbulenceModels/compressible/RAS/derivedFvPatchFields/wallFunctions/omegaWallFunctions/omegaWallFunction/omegaWallFunctionFvPatchScalarField.C
View File

@ -26,10 +26,11 @@ License
#include "omegaWallFunctionFvPatchScalarField.H" #include "omegaWallFunctionFvPatchScalarField.H"
#include "compressible/turbulenceModel/turbulenceModel.H" #include "compressible/turbulenceModel/turbulenceModel.H"
#include "fvPatchFieldMapper.H" #include "fvPatchFieldMapper.H"
#include "fvMatrix.H"
#include "volFields.H" #include "volFields.H"
#include "addToRunTimeSelectionTable.H"
#include "mutWallFunctionFvPatchScalarField.H"
#include "wallFvPatch.H" #include "wallFvPatch.H"
#include "mutWallFunctionFvPatchScalarField.H"
#include "addToRunTimeSelectionTable.H"
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * // // * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
@ -63,6 +64,198 @@ void omegaWallFunctionFvPatchScalarField::writeLocalEntries(Ostream& os) const
} }
void omegaWallFunctionFvPatchScalarField::setMaster()
{
if (master_ != -1)
{
return;
}
const volScalarField& omega =
static_cast<const volScalarField&>(this->dimensionedInternalField());
const volScalarField::GeometricBoundaryField& bf = omega.boundaryField();
label master = -1;
forAll(bf, patchI)
{
if (isA<omegaWallFunctionFvPatchScalarField>(bf[patchI]))
{
omegaWallFunctionFvPatchScalarField& epf = omegaPatch(patchI);
if (master == -1)
{
master = patchI;
}
epf.master() = master;
}
}
}
void omegaWallFunctionFvPatchScalarField::createAveragingWeights()
{
if (initialised_)
{
return;
}
const volScalarField& omega =
static_cast<const volScalarField&>(this->dimensionedInternalField());
const volScalarField::GeometricBoundaryField& bf = omega.boundaryField();
const fvMesh& mesh = omega.mesh();
volScalarField weights
(
IOobject
(
"weights",
mesh.time().timeName(),
mesh,
IOobject::NO_READ,
IOobject::NO_WRITE,
false // do not register
),
mesh,
dimensionedScalar("zero", dimless, 0.0)
);
DynamicList<label> omegaPatches(bf.size());
forAll(bf, patchI)
{
if (isA<omegaWallFunctionFvPatchScalarField>(bf[patchI]))
{
omegaPatches.append(patchI);
const labelUList& faceCells = bf[patchI].patch().faceCells();
forAll(faceCells, i)
{
label cellI = faceCells[i];
weights[cellI]++;
}
}
}
cornerWeights_.setSize(bf.size());
forAll(omegaPatches, i)
{
label patchI = omegaPatches[i];
const fvPatchField& wf = weights.boundaryField()[patchI];
cornerWeights_[patchI] = 1.0/wf.patchInternalField();
}
G_.setSize(dimensionedInternalField().size(), 0.0);
omega_.setSize(dimensionedInternalField().size(), 0.0);
initialised_ = true;
}
omegaWallFunctionFvPatchScalarField&
omegaWallFunctionFvPatchScalarField::omegaPatch(const label patchI)
{
const volScalarField& omega =
static_cast<const volScalarField&>(this->dimensionedInternalField());
const volScalarField::GeometricBoundaryField& bf = omega.boundaryField();
const omegaWallFunctionFvPatchScalarField& epf =
refCast<const omegaWallFunctionFvPatchScalarField>(bf[patchI]);
return const_cast<omegaWallFunctionFvPatchScalarField&>(epf);
}
void omegaWallFunctionFvPatchScalarField::calculateTurbulenceFields
(
const turbulenceModel& turbulence,
scalarField& G0,
scalarField& omega0
)
{
// accumulate all of the G and omega contributions
forAll(cornerWeights_, patchI)
{
if (!cornerWeights_[patchI].empty())
{
omegaWallFunctionFvPatchScalarField& epf = omegaPatch(patchI);
const List<scalar>& w = cornerWeights_[patchI];
epf.calculate(turbulence, w, epf.patch(), G0, omega0);
}
}
// apply zero-gradient condition for omega
forAll(cornerWeights_, patchI)
{
if (!cornerWeights_[patchI].empty())
{
omegaWallFunctionFvPatchScalarField& epf = omegaPatch(patchI);
epf == scalarField(omega0, epf.patch().faceCells());
}
}
}
void omegaWallFunctionFvPatchScalarField::calculate
(
const turbulenceModel& turbulence,
const List<scalar>& cornerWeights,
const fvPatch& patch,
scalarField& G,
scalarField& omega
)
{
const label patchI = patch.index();
const scalarField& y = turbulence.y()[patchI];
const scalar Cmu25 = pow025(Cmu_);
const tmp<volScalarField> tk = turbulence.k();
const volScalarField& k = tk();
const scalarField& rhow = turbulence.rho().boundaryField()[patchI];
const tmp<volScalarField> tmu = turbulence.mu();
const scalarField& muw = tmu().boundaryField()[patchI];
const tmp<volScalarField> tmut = turbulence.mut();
const volScalarField& mut = tmut();
const scalarField& mutw = mut.boundaryField()[patchI];
const fvPatchVectorField& Uw = turbulence.U().boundaryField()[patchI];
const scalarField magGradUw(mag(Uw.snGrad()));
// Set omega and G
forAll(mutw, faceI)
{
label cellI = patch.faceCells()[faceI];
scalar w = cornerWeights[faceI];
scalar omegaVis = 6.0*muw[faceI]/(rhow[faceI]*beta1_*sqr(y[faceI]));
scalar omegaLog = sqrt(k[cellI])/(Cmu25*kappa_*y[faceI]);
omega[cellI] = w*sqrt(sqr(omegaVis) + sqr(omegaLog));
G[cellI] =
w
*(mutw[faceI] + muw[faceI])
*magGradUw[faceI]
*Cmu25*sqrt(k[cellI])
/(kappa_*y[faceI]);
}
}
// * * * * * * * * * * * * * * * * Constructors * * * * * * * * * * * * * * // // * * * * * * * * * * * * * * * * Constructors * * * * * * * * * * * * * * //
omegaWallFunctionFvPatchScalarField::omegaWallFunctionFvPatchScalarField omegaWallFunctionFvPatchScalarField::omegaWallFunctionFvPatchScalarField
@ -71,13 +264,17 @@ omegaWallFunctionFvPatchScalarField::omegaWallFunctionFvPatchScalarField
const DimensionedField<scalar, volMesh>& iF const DimensionedField<scalar, volMesh>& iF
) )
: :
fixedInternalValueFvPatchField<scalar>(p, iF), fixedValueFvPatchField<scalar>(p, iF),
Cmu_(0.09), Cmu_(0.09),
kappa_(0.41), kappa_(0.41),
E_(9.8), E_(9.8),
beta1_(0.075), beta1_(0.075),
yPlusLam_(mutWallFunctionFvPatchScalarField::yPlusLam(kappa_, E_)) yPlusLam_(mutWallFunctionFvPatchScalarField::yPlusLam(kappa_, E_)),
G_(),
omega_(),
initialised_(false),
master_(-1),
cornerWeights_()
{ {
checkType(); checkType();
} }
@ -91,12 +288,17 @@ omegaWallFunctionFvPatchScalarField::omegaWallFunctionFvPatchScalarField
const fvPatchFieldMapper& mapper const fvPatchFieldMapper& mapper
) )
: :
fixedInternalValueFvPatchField<scalar>(ptf, p, iF, mapper), fixedValueFvPatchField<scalar>(ptf, p, iF, mapper),
Cmu_(ptf.Cmu_), Cmu_(ptf.Cmu_),
kappa_(ptf.kappa_), kappa_(ptf.kappa_),
E_(ptf.E_), E_(ptf.E_),
beta1_(ptf.beta1_), beta1_(ptf.beta1_),
yPlusLam_(ptf.yPlusLam_) yPlusLam_(ptf.yPlusLam_),
G_(),
omega_(),
initialised_(false),
master_(-1),
cornerWeights_()
{ {
checkType(); checkType();
} }
@ -109,12 +311,17 @@ omegaWallFunctionFvPatchScalarField::omegaWallFunctionFvPatchScalarField
const dictionary& dict const dictionary& dict
) )
: :
fixedInternalValueFvPatchField<scalar>(p, iF, dict), fixedValueFvPatchField<scalar>(p, iF, dict),
Cmu_(dict.lookupOrDefault<scalar>("Cmu", 0.09)), Cmu_(dict.lookupOrDefault<scalar>("Cmu", 0.09)),
kappa_(dict.lookupOrDefault<scalar>("kappa", 0.41)), kappa_(dict.lookupOrDefault<scalar>("kappa", 0.41)),
E_(dict.lookupOrDefault<scalar>("E", 9.8)), E_(dict.lookupOrDefault<scalar>("E", 9.8)),
beta1_(dict.lookupOrDefault<scalar>("beta1", 0.075)), beta1_(dict.lookupOrDefault<scalar>("beta1", 0.075)),
yPlusLam_(mutWallFunctionFvPatchScalarField::yPlusLam(kappa_, E_)) yPlusLam_(mutWallFunctionFvPatchScalarField::yPlusLam(kappa_, E_)),
G_(),
omega_(),
initialised_(false),
master_(-1),
cornerWeights_()
{ {
checkType(); checkType();
} }
@ -125,12 +332,17 @@ omegaWallFunctionFvPatchScalarField::omegaWallFunctionFvPatchScalarField
const omegaWallFunctionFvPatchScalarField& owfpsf const omegaWallFunctionFvPatchScalarField& owfpsf
) )
: :
fixedInternalValueFvPatchField<scalar>(owfpsf), fixedValueFvPatchField<scalar>(owfpsf),
Cmu_(owfpsf.Cmu_), Cmu_(owfpsf.Cmu_),
kappa_(owfpsf.kappa_), kappa_(owfpsf.kappa_),
E_(owfpsf.E_), E_(owfpsf.E_),
beta1_(owfpsf.beta1_), beta1_(owfpsf.beta1_),
yPlusLam_(owfpsf.yPlusLam_) yPlusLam_(owfpsf.yPlusLam_),
G_(),
omega_(),
initialised_(false),
master_(-1),
cornerWeights_()
{ {
checkType(); checkType();
} }
@ -142,13 +354,17 @@ omegaWallFunctionFvPatchScalarField::omegaWallFunctionFvPatchScalarField
const DimensionedField<scalar, volMesh>& iF const DimensionedField<scalar, volMesh>& iF
) )
: :
fixedInternalValueFvPatchField<scalar>(owfpsf, iF), fixedValueFvPatchField<scalar>(owfpsf, iF),
Cmu_(owfpsf.Cmu_), Cmu_(owfpsf.Cmu_),
kappa_(owfpsf.kappa_), kappa_(owfpsf.kappa_),
E_(owfpsf.E_), E_(owfpsf.E_),
beta1_(owfpsf.beta1_), beta1_(owfpsf.beta1_),
yPlusLam_(owfpsf.yPlusLam_) yPlusLam_(owfpsf.yPlusLam_),
G_(),
omega_(),
initialised_(false),
master_(-1),
cornerWeights_()
{ {
checkType(); checkType();
} }
@ -156,6 +372,38 @@ omegaWallFunctionFvPatchScalarField::omegaWallFunctionFvPatchScalarField
// * * * * * * * * * * * * * * * Member Functions * * * * * * * * * * * * * // // * * * * * * * * * * * * * * * Member Functions * * * * * * * * * * * * * //
scalarField& omegaWallFunctionFvPatchScalarField::G(bool init)
{
if (patch().index() == master_)
{
if (init)
{
G_ = 0.0;
}
return G_;
}
return omegaPatch(master_).G();
}
scalarField& omegaWallFunctionFvPatchScalarField::omega(bool init)
{
if (patch().index() == master_)
{
if (init)
{
omega_ = 0.0;
}
return omega_;
}
return omegaPatch(master_).omega(init);
}
void omegaWallFunctionFvPatchScalarField::updateCoeffs() void omegaWallFunctionFvPatchScalarField::updateCoeffs()
{ {
if (updated()) if (updated())
@ -163,68 +411,168 @@ void omegaWallFunctionFvPatchScalarField::updateCoeffs()
return; return;
} }
const label patchI = patch().index();
const turbulenceModel& turbulence = const turbulenceModel& turbulence =
db().lookupObject<turbulenceModel>("turbulenceModel"); db().lookupObject<turbulenceModel>(turbulenceModel::typeName);
const scalarField& y = turbulence.y()[patch().index()];
const scalar Cmu25 = pow025(Cmu_); setMaster();
volScalarField& G = const_cast<volScalarField&> if (patch().index() == master_)
(
db().lookupObject<volScalarField>
(
turbulence.GName()
)
);
DimensionedField<scalar, volMesh>& omega =
const_cast<DimensionedField<scalar, volMesh>&>
(
dimensionedInternalField()
);
const tmp<volScalarField> tk = turbulence.k();
const volScalarField& k = tk();
const scalarField& rhow = turbulence.rho().boundaryField()[patchI];
const scalarField& muw = turbulence.mu().boundaryField()[patchI];
const tmp<volScalarField> tmut = turbulence.mut();
const volScalarField& mut = tmut();
const scalarField& mutw = mut.boundaryField()[patchI];
const fvPatchVectorField& Uw = turbulence.U().boundaryField()[patchI];
const scalarField magGradUw(mag(Uw.snGrad()));
// Set omega and G
forAll(mutw, faceI)
{ {
label faceCellI = patch().faceCells()[faceI]; createAveragingWeights();
calculateTurbulenceFields(turbulence, G(true), omega(true));
scalar omegaVis = 6.0*muw[faceI]/(rhow[faceI]*beta1_*sqr(y[faceI]));
scalar omegaLog = sqrt(k[faceCellI])/(Cmu25*kappa_*y[faceI]);
omega[faceCellI] = sqrt(sqr(omegaVis) + sqr(omegaLog));
G[faceCellI] =
(mutw[faceI] + muw[faceI])
*magGradUw[faceI]
*Cmu25*sqrt(k[faceCellI])
/(kappa_*y[faceI]);
} }
fixedInternalValueFvPatchField<scalar>::updateCoeffs(); const scalarField& G0 = this->G();
const scalarField& omega0 = this->omega();
// TODO: perform averaging for cells sharing more than one boundary face typedef DimensionedField<scalar, volMesh> FieldType;
FieldType& G =
const_cast<FieldType&>
(
db().lookupObject<FieldType>(turbulence.GName())
);
FieldType& omega = const_cast<FieldType&>(dimensionedInternalField());
forAll(*this, faceI)
{
label cellI = patch().faceCells()[faceI];
G[cellI] = G0[cellI];
omega[cellI] = omega0[cellI];
}
fvPatchField<scalar>::updateCoeffs();
}
void omegaWallFunctionFvPatchScalarField::updateCoeffs
(
const scalarField& weights
)
{
if (updated())
{
return;
}
const turbulenceModel& turbulence =
db().lookupObject<turbulenceModel>(turbulenceModel::typeName);
setMaster();
if (patch().index() == master_)
{
createAveragingWeights();
calculateTurbulenceFields(turbulence, G(true), omega(true));
}
const scalarField& G0 = this->G();
const scalarField& omega0 = this->omega();
typedef DimensionedField<scalar, volMesh> FieldType;
FieldType& G =
const_cast<FieldType&>
(
db().lookupObject<FieldType>(turbulence.GName())
);
FieldType& omega = const_cast<FieldType&>(dimensionedInternalField());
// only set the values if the weights are < 1 - tolerance
forAll(weights, faceI)
{
scalar w = weights[faceI];
if (w < 1.0 - 1e-6)
{
label cellI = patch().faceCells()[faceI];
G[cellI] = w*G[cellI] + (1.0 - w)*G0[cellI];
omega[cellI] = w*omega[cellI] + (1.0 - w)*omega0[cellI];
}
}
fvPatchField<scalar>::updateCoeffs();
}
void omegaWallFunctionFvPatchScalarField::manipulateMatrix
(
fvMatrix<scalar>& matrix
)
{
if (manipulatedMatrix())
{
return;
}
matrix.setValues(patch().faceCells(), patchInternalField());
fvPatchField<scalar>::manipulateMatrix(matrix);
}
void omegaWallFunctionFvPatchScalarField::manipulateMatrix
(
fvMatrix<scalar>& matrix,
const Field<scalar>& weights
)
{
if (manipulatedMatrix())
{
return;
}
// filter weights so that we only apply the constraint where the
// weight > SMALL
DynamicList<label> constraintCells(weights.size());
DynamicList<scalar> constraintomega(weights.size());
const labelUList& faceCells = patch().faceCells();
const DimensionedField<scalar, volMesh>& omega
= dimensionedInternalField();
label nConstrainedCells = 0;
forAll(weights, faceI)
{
// only set the values if the weights are < 1 - tolerance
if (weights[faceI] < (1.0 - 1e-6))
{
nConstrainedCells++;
label cellI = faceCells[faceI];
constraintCells.append(cellI);
constraintomega.append(omega[cellI]);
}
}
if (debug)
{
Pout<< "Patch: " << patch().name()
<< ": number of constrained cells = " << nConstrainedCells
<< " out of " << patch().size()
<< endl;
}
matrix.setValues
(
constraintCells,
scalarField(constraintomega.xfer())
);
fvPatchField<scalar>::manipulateMatrix(matrix);
} }
void omegaWallFunctionFvPatchScalarField::write(Ostream& os) const void omegaWallFunctionFvPatchScalarField::write(Ostream& os) const
{ {
fixedInternalValueFvPatchField<scalar>::write(os); fixedValueFvPatchField<scalar>::write(os);
writeLocalEntries(os); writeLocalEntries(os);
writeEntry("value", os); writeEntry("value", os);
} }

85
src/turbulenceModels/compressible/RAS/derivedFvPatchFields/wallFunctions/omegaWallFunctions/omegaWallFunction/omegaWallFunctionFvPatchScalarField.H
View File

@ -2,7 +2,7 @@
========= | ========= |
\\ / F ield | OpenFOAM: The Open Source CFD Toolbox \\ / F ield | OpenFOAM: The Open Source CFD Toolbox
\\ / O peration | \\ / O peration |
\\ / A nd | Copyright (C) 2011-2012 OpenFOAM Foundation \\ / A nd | Copyright (C) 2011-2013 OpenFOAM Foundation
\\/ M anipulation | \\/ M anipulation |
------------------------------------------------------------------------------- -------------------------------------------------------------------------------
License License
@ -76,7 +76,7 @@ SourceFiles
#ifndef compressibleOmegaWallFunctionFvPatchScalarField_H #ifndef compressibleOmegaWallFunctionFvPatchScalarField_H
#define compressibleOmegaWallFunctionFvPatchScalarField_H #define compressibleOmegaWallFunctionFvPatchScalarField_H
#include "fixedInternalValueFvPatchField.H" #include "fixedValueFvPatchField.H"
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * // // * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
@ -85,13 +85,15 @@ namespace Foam
namespace compressible namespace compressible
{ {
class turbulenceModel;
/*---------------------------------------------------------------------------*\ /*---------------------------------------------------------------------------*\
Class omegaWallFunctionFvPatchScalarField Declaration Class omegaWallFunctionFvPatchScalarField Declaration
\*---------------------------------------------------------------------------*/ \*---------------------------------------------------------------------------*/
class omegaWallFunctionFvPatchScalarField class omegaWallFunctionFvPatchScalarField
: :
public fixedInternalValueFvPatchField<scalar> public fixedValueFvPatchField<scalar>
{ {
protected: protected:
@ -112,6 +114,21 @@ protected:
//- Y+ at the edge of the laminar sublayer //- Y+ at the edge of the laminar sublayer
scalar yPlusLam_; scalar yPlusLam_;
//- Local copy of turbulence G field
scalarField G_;
//- Local copy of turbulence omega field
scalarField omega_;
//- Initialised flag
bool initialised_;
//- Master patch ID
label master_;
//- List of averaging corner weights
List<List<scalar> > cornerWeights_;
// Protected Member Functions // Protected Member Functions
@ -121,6 +138,44 @@ protected:
//- Write local wall function variables //- Write local wall function variables
virtual void writeLocalEntries(Ostream&) const; virtual void writeLocalEntries(Ostream&) const;
//- Set the master patch - master is responsible for updating all
// wall function patches
virtual void setMaster();
//- Create the averaging weights for cells which are bounded by
// multiple wall function faces
virtual void createAveragingWeights();
//- Helper function to return non-const access to an omega patch
virtual omegaWallFunctionFvPatchScalarField& omegaPatch
(
const label patchI
);
//- Main driver to calculate the turbulence fields
virtual void calculateTurbulenceFields
(
const turbulenceModel& turbulence,
scalarField& G0,
scalarField& omega0
);
//- Calculate the omega and G
virtual void calculate
(
const turbulenceModel& turbulence,
const List<scalar>& cornerWeights,
const fvPatch& patch,
scalarField& G,
scalarField& omega
);
//- Return non-const access to the master patch ID
virtual label& master()
{
return master_;
}
public: public:
@ -193,11 +248,33 @@ public:
// Member functions // Member functions
// Access
//- Return non-const access to the master's G field
scalarField& G(bool init = false);
//- Return non-const access to the master's omega field
scalarField& omega(bool init = false);
// Evaluation functions // Evaluation functions
//- Update the coefficients associated with the patch field //- Update the coefficients associated with the patch field
virtual void updateCoeffs(); virtual void updateCoeffs();
//- Update the coefficients associated with the patch field
virtual void updateCoeffs(const scalarField& weights);
//- Manipulate matrix
virtual void manipulateMatrix(fvMatrix<scalar>& matrix);
//- Manipulate matrix with given weights
virtual void manipulateMatrix
(
fvMatrix<scalar>& matrix,
const scalarField& weights
);
// I-O // I-O